AI: From Human to Robot
There are a lot of myths regarding Artificial Intelligence and it’s time to start looking at the facts. AI is fast becoming a vehicle for a medical revolution.
AI’s ability to mimic the processes of the human brain makes it an incredibly valuable tool for the exciting developments in robotic prosthetic limbs. This is an exciting step towards improving quality of life for amputees.
By harnessing the natural power of the human mind, these neuro-controlled limbs are the perfect illustration of what humanity and robotics can achieve together.
In theory, this innovative technology marks the dawn of a new age of robots. Robots and devices that can serve humans by preserving the value and power of a healthy human mind by enhancing a damaged body.
Mind-control is no longer a fantasy straight out of a sci-fi movie, but a real-life phenomenon that is already helping people regain control over their bodies.
After years of research in the field, it is now possible for robotics to imitate the signals produced by the frontal cortex of the brain which enable the body to move. In patients who have lost limbs, these signals must be retrained with the help of small electrode implants inserted into the brain.
Neurons in the brain communicating with our body are responsible for all our movements. At its base level, movement is the result of an electrical impulse. The mind is essentially a computer: the human body and AI are a natural team because they are fundamentally very similar. Where physical damage makes it impossible to reconnect with a traditional prosthetic limb, AI steps in and recreates the lost connections.
Neuro-controlled prosthetics will give amputees a new lease of life: with improved dexterity and, after the neural pathways have been exercised, the ability to move a limb because the patient simply wills it so, a prosthetic arm or leg will become increasingly user-friendly and sufficient for full quality of life.
In these exciting times, Neurogress, a pioneering company in mind-controlled devices, is propelling the development to new heights, by means of mind-controlled prosthetics that work without any need for implanting electrodes in the brain.
As a pivotal advancement for neuro-controlled prosthetics, what makes Neurogress special, and how is the result achieved without the implants?
Neurogress have developed a way for the brain to communicate with the prosthetic limb entirely through signals given off by the frontal cortex. This means that with Neurogress, there is no need for invasive surgery before the user can start learning to manipulate the new limb.
Neurogress have pioneered the user-focused technology necessary for such a radical procedure. The emphasis is on the limb being integrated into the user’s life as seamlessly as possible. This is achieved with state-of-the-art 3D-printed prosthetics, for increased accuracy and to make the limb that suits the individual needs of the patient.
As well as eliminating the need for surgery, the developments from Neurogress mean that neuro-controlled prosthetics are becoming increasingly more affordable, and mark a new chapter for Artificial Intelligence to work alongside medicine.
How do you feel about the prospect of prosthetic limbs? Do you find AI exciting, or worrying? Comment below and share your thoughts.
Invest in the interactive mind-controlled devices of the future by buying tokens now. Visit Neurogress.io.